** Radiobiology final

Question 1

What factors contributed to high levels of skin dose in the early days?

Answer 1

long exposure times

low energy radiation

Question 2

Which types of radiation is capable of ionization?

Answer 2

alpha and beta

Question 3

Define background radiation:

Answer 3

the natural radiation that is always present in the environment. It includes cosmic, terrestrial and radiation

Question 4

Define ionization:

Answer 4

removal or addition of an orbital electron from or to an atom

Question 5

List the steps of the compton effect:

Answer 5

1. An incident xray photon collides with an outer shell electron and is scattered with resulting energy loss
2. The incident causes fog to the radiograph and exposure to the tech
3. The electron is knocked out of orbit, frequency and wave length decreases, and the atom is ionized

Question 6

List the steps of the photoelectric effect:

Answer 6

1. The incident X-ray photon collides with the inner shell electron and is totally absorbed
2. Is responsible for the white areas of the radiograph representing bone
3. the atom is ionized
4. secondary radtiation is emitted during the process, electrons from outer shells jump down to fill holes
5. releases excess energy=characteristic radiation

Question 7

Name the four statements of the Law of Bergonie and Tribondeau:

Answer 7

1. stem cells undifferentiated are more radiosensitive
2. young tissues and organs are more radiosensitive
3. tissues with high metabolic activity are more radiosensitive
4. tissues with high proliferation rate are more sensitive ex. bone marrow, blood cells, small bowel, spermatagonia

Question 8

What is LET?

Answer 8

linear energy transfer-a measure of the rate at which energy is transferred to a tissue as ionizing radiation passes through it

Question 9

What is RBE?

Answer 9

relative biologic effectiveness- an expression of the ability of various types of radiation to cause biologic damage relative to a standard radiation dose, which is always X-rays

Question 10

How are LET and RBE related?

Answer 10

As the LET of radiation increases, the RBE also increases. They are directly proportional.

Question 11

Which type of radiation has a high LET?

Answer 11

alpha

Question 12

What does roentgen measure?

Answer 12

a unit that measures the amount of radiation as it passes thru air.

Question 13

What does REM measure?

Answer 13

radiation equivalent man-effective dose- occupational or population dose

Question 14

What does RAD measure?

Answer 14

radiation absorbed dose- measures absorbed energy into tissues

Question 15

What does a curie measure?

Answer 15

radioactivity

Question 16

How is the effective dose (Rems) calculated?

Answer 16

radiation weighting factor(Wr) x tissue weighting factor (Wt) x absorbed dose

Question 17

What is radiation weighting factor?

Answer 17

(Wr)- an estimate of the ability of each type of radiation to cause biologic damage relative to the ionization ability of each. the Wr for X-rays is always 1 bc they are considered standard radiation in which all other types are compared to.

Question 18

Define atomic number vs. atomic mass number:

Answer 18

atomic number- number of protons

atomic mass number-the number of protons and number or neutrons added together=weight of the atom

Question 19

What is the net charge of the nucleus? Of the atom?

Answer 19

nucleus: +
atom: zero

Question 20

Define binding energy and potential energy:

Answer 20

binding- strength of attachment of an electron to the nucleus
potential- electrons which are located in shells farther from the nucleus will posses more potential energy

Question 21

Define attenuation:

Answer 21

the reduction in the total number of X-rays following penetration thru the matter

Question 22

Define fractionation and protraction:

Answer 22

fractionation-a dose of radiation which is delivered to the body in fractions separated by time intervals
protraction-a continuous dose of radiation which is delivered to the body over a long period of time

Question 23

Differentiate between the dose response relationships of linear versus non linear:

Answer 23

linear= a straight line. As dose increases, the biologic response increase in direct proportion.

non linear= a curved line. As dose increases the biologic response can increase rapidly or slowly depending on the shape of the curve.

Question 24

Differentiate between the dose response relationships of threshold versus non threshold:

Answer 24

threshold=intersects above zero dose. In order for a biologic response to occur, a minimum dose of radiation is necessary. ex. skin burn takes 300 Rads

nonthreshold= intersects at zero. A biologic response always exists even at low doses but cannot be measured or seen. ex. genetic damage

Question 25

Which molecule in the body is most likely to interact with radiation?

Answer 25

water

Question 26

What type of interaction with radiation in the body will produce free radicals?

Answer 26

radiolysis of water

Question 27

Define the target theory: Which type of radiation is most likely to cause a direct hit? An indirect hit?

Answer 27

• in order for a cell to die from radiation, its target or key molecule must be hit and inactivated.
• high LET will most likely cause a direct hit
• low LET most likely to cause an indirect hit

Question 28

Describe a chromosome aberration:

Answer 28

any change in the normal structure or number of chromosomes. often results in physical or mental abnormalities

Question 29

Which two cells in the body are most radiosensitive?

Answer 29

lymphocytes and spermatagonia

Question 30

How does the hemopoietic system respond the irradiation?

Answer 30

• causes a reduction in RBC’s, WBC’S and platelets in blood.
• body loses ability to fight infection
• increase susceptibility for hemorrhage
• results from whole body doses of 200-1000 Rads

Question 31

What are the three forms of acute radiation syndrome?

Answer 31

• hematopoietic-200-1000 RAD
• gastrointestinal-1000-5000 RAD
• CNS-above 5000 RAD

Question 32

What are the symptoms of acute radiation syndrome?

Answer 32

Hematopoietic= vomiting, diarhea, malaise, lethargy, fever. Recovery is possible w/ bone marrow transplant. Death occurs from infection within 10-60 days

Gastrointestinal- severe nausea/vomiting/diarhea, bloody stools, hemorrhage, infection, fever, electrolyte imbalance. death caused by electrolyte imbalance, infection and dehydration and will occur within 4-10 days

CNS- disorientation, loss of muscle coordination, dyspnea, convulsions, seizures, loss of balance, coma. Death occurs from inter cranial pressure and increased fluid in the brain within 0-3 days.

Question 33

Name and describe the four stages of acute radiation syndrome:

Answer 33

1. Promodol- occurs within minutes to hours and will last from hours to days w/ nausea/vomiting/diarrhea and fatigue. As dose levels increase the duration will decrease.
2. Latent- period where there are no outward symptoms. Duration is from hours to weeks. As dose level increases latent period decreases.
3. Manifest illness-period in which the affected systems clinical symptoms begin, may vary in severity.
4. Death or recovery

Question 34

Define LD 50/30:

Answer 34

the whole body dose which will cause death in a period of 30 days to 50% of the population

Question 35

Define the following:

• erythema
• epilation
• desquamation

Answer 35

• redding of the skin following high dose of radiation
• temporary loss of body hair following rad exposure
• dry shedding of the skin following mild erythema

Question 36

Define late effects:

Answer 36

long term somatic effects that appear months or years later following chronic low level rad doses and acute whole body rad doses
-local tissues effects, life span shortening, carcinogenesis, and embryological effects

Question 37

Describe how exposure to radiation can cause cataracts:

Answer 37

• threshold DDR
• acute dose=200 rads, fractionated= 1000 rads
• high LET has greater effect

Question 38

Name the study groups who suffered radiation induced malignancies:

Answer 38

a-bomb survivors
radiotherapy patients
early nuclear physicists who worked with cyclotrons

Question 39

Define the inverse square law and know how to calculate it:

Answer 39

as the distance from the rad source increases the exposure decreases in inverse proportion to the square of the distance.
double your distance=decreases to 1/4 of its original value
triple your distance=decreases to 1/9
quadruple your distance=decreases to 1/16

Question 40

Define:
Reproducibility
Linearity

Answer 40

R-for any given radiographic technique setting, the output of rad intensity should be constant from one exposure to the next
L-when different mA stations are used in different combos to obtain the same mAs, the output should be constant.

Question 41

What should the source to table top distance be for stationary units? mobile units? What intensity must the X-ray intensity never exceed?

Answer 41

15” for stationary
12” for mobile
10R/min

Question 42

Define the half value layer:

Answer 42

• the thickness of absorbing material necessary to reduce the X-ray intensity to one half of its original value. It measures the X-ray beam quality or penatrability.
• as kvp ^ HVL ^

Question 43

Distinguish between the variable aperture collimation and positive beam limitation:

Answer 43

VAC=modern day collimators, beam is adjustable

PBL=automatic collimators that limit the beam to the exact film size

Question 44

What are the components located within the variable aperture collimator box and what are their purposes?

Answer 44

• entrance shutter=absorbs off focus radiation
• long shutters=controls length wise of collimated beam
• cross shutters= controls width wise of collimated beam
• light source=projects light beam onto reflecting mirror
• plastic exit portal=provides cross hairs for centering
• added filtration= brings total filtration to 2.5 mm

Question 45

Compare primary and secondary protective barriers:

Answer 45

Primary=must be provided whenever the primary beam intersects at a perp angle, must be equivalent to 1/16” lead

Secondary= provided whenever scatter or leakage radiation intersects the wall in question ex. shielded control booth. must be 1/32” lead equivalent

Question 46

What are the basic types of personal monitoring devices?

Answer 46

film badge-most widely used, capable of recording a slowly accumulated dose

thermoluminescent dosimeter-records exposures as low as 5 mrem

ionization chamber(pocket dosimeter)-suited for high exposure areas where an immediate reading is recommended

optically stimulated luminescence dosimeter-can record exposures as low as 1 mrem

Question 47

What is the estimated skin dose during fluoro?

Answer 47

4-8 R/min

Question 48

Define GSD:

Answer 48

• average rad exposure to the gonads of the US population- direct exposure/scatter.
• about 20mrads in US
• assumes that the dose would have the same genetic effect on unexposed individuals as those who were actually exposed

Question 49

Name and describe the various types of beam restricting devices:

Answer 49

aperture diaphragm-flat piece of lead lined metal with a hole in the middle.

cone-circular metal tubes which restrict the useful beam to desired size

collimators-box like structure with adjustable diaphragmn

Question 50

What is the average fluoro mA.02?

Answer 50

1-5 mA

Question 51

What is the most radiosensitive phase of the cell cycle?

Answer 51

metaphase

Question 52

What is the sensing phosphor in the TLD?

Answer 52

lithium fluoride , crystal emits visible light when heated, light is in proportion to rad detected

Question 53

What is the required amount of total filtration for X-ray tubes operating above 70 KVP?

Answer 53

2.6 mm Al